JPH0984108A - Mobile terminal priority connection system - Google Patents

Abstract

(57) Abstract: The present invention relates to a mobile terminal priority connection system, and when a mobile terminal is congested, secures communication (outgoing / incoming) of important subscribers by giving priority to general subscribers. It is an object of the present invention to provide a priority connection system for mobile terminals that can be used. In a system in which a mobile terminal and a radio base station are connected by a radio signal, in the radio base station,
Based on call control means for exchanging call information with the mobile terminal and information input via the call control means,
Reserved line number determining means for calculating the number of reserved lines for general calls / priority calls and / or for outgoing calls / incoming calls,
In response to the reserved circuit number information from the reserved circuit number determining means and the channel request from the call control means, the channel allocation is notified to the call control means, and the reserved circuit is controlled and the traffic is measured. It comprises and is comprised.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a priority connection system for mobile terminals, and more particularly to allocation of radio communication channels between mobile terminals and radio base stations.

When a disaster occurs, abnormal traffic, which is tens of times as large as normal traffic, is generated due to a disaster visit of a general subscriber, and important subscribers (for example, public institutions etc.) are exhausted by exhausting radio communication channels and switching resources. Subscribers: Refers to priority subscribers).

On the other hand, it is expected that important subscribers will use mobile communication as means for transmitting disaster information collection and instruction of countermeasures when a disaster occurs, so priority connection control of important subscribers is required. .

[0004]

2. Description of the Related Art FIG. 12 is a conceptual diagram of a conventional system.
In the figure, 1 is an exchange, 3 is a public line connected to the exchange 1, 4 is a subscriber terminal connected to the exchange 1, 1
Reference numeral 0 is a plurality of radio base stations connected to the exchange, and 2 is a mobile terminal that communicates with these radio base stations 10 by radio.

In the conventional system, the mobile terminal 2 is classified into a general call class and a priority call class (general / priority).
Has the concept of. That is, the mobile terminal 2 is divided into a general call and a priority call. Here, when an outgoing call from the mobile terminal 2 occurs abnormally and the radio base station 10 is congested, the radio base station 10 notifies the mobile terminal 2 for general calls of general call access group regulation. And regulate outgoing calls.
As a result, the mobile terminal 2 for general calls cannot make a call. Therefore, the outgoing call from the mobile terminal 2 for priority call can be accepted.

[0006]

However, the wireless communication channel between the mobile terminal 2 and the wireless base station 10 is not aware of the above-mentioned terminal class (general / priority) and communication type (outgoing / incoming), It was not possible to secure a call channel according to the characteristics of the call. In the conventional mobile terminal 2, when the number of outgoing calls from the general call mobile terminal 2 is extremely larger than that of the priority call mobile terminal 2, 100% of the general call mobile terminal 2 is restricted by the access group restriction. Unless the above procedure is performed, the outgoing call from the mobile terminal 2 for priority call cannot be preferentially accepted. On the other hand, when the 100% regulation was implemented, there was an adverse effect that the outgoing call from the general call mobile terminal 2 could not be accepted at all even if the call channel was available.

Even when 100% of the general call mobile terminal 2 is restricted, if there are many incoming calls to the area, the call channel is occupied by the incoming calls and the priority call mobile terminal 2 is accepted. There was a possibility not to be. Further, in the incoming call, it is impossible to prioritize the incoming call to the priority call mobile terminal 2 because the terminal class of the incoming call mobile terminal is not taken into consideration.

The present invention has been made in view of the above problems, and when congestion occurs in a mobile terminal, the communication (calling / calling) of important subscribers is secured prior to the general subscribers. It is an object of the present invention to provide a priority connection system for mobile terminals that can be used.

[0009]

FIG. 1 is a block diagram showing the principle of the first invention, and FIG. 2 is a block diagram showing the principle of the second invention. 1 are denoted by the same reference numerals. FIG. 1 constitutes a system in which a mobile terminal 2 and a radio base station 10 are connected by a radio signal. The radio base station 10
In the figure, 11 is a call control means for exchanging call information with the mobile terminal 2, and 12 is a general call / priority call and / or a call based on information inputted through the call control means 11.
Alternatively, the reserved circuit number determining means for calculating the respective reserved circuit numbers for outgoing call / incoming call, 13 receives the reserved circuit number information from the reserved circuit number determining means 12 and the channel request from the call control means 11. It is a channel allocating means for notifying the call control means 11 of the channel allocation and for controlling the reserved line and measuring the traffic.

With this configuration, the reserved line number determining means 12 determines all the radio communication channels for general calls / priority calls and / or based on the call information input via the call control means 11. Calculate the number of reserved lines for outgoing and incoming calls. As a result, a fixed amount of all wireless channels is reserved for general call reservation lines, priority call reservation lines, and / or
Alternatively, since it can be secured as an outgoing call reservation line and an incoming call reservation line, when the mobile terminal 2 is congested, it is possible to secure communication (originating / receiving) of important subscribers with priority over general subscribers. it can.

In this case, the reserved line number determining means 12 autonomously and dynamically logically allocates wireless channels for general calls and priority calls according to the number of accommodated mobile terminals, and assigns the channels. The means 13 is characterized by allocating channels according to the number of reserved lines for general calls and priority calls notified from the reserved line number determining means 12.

According to the structure of the present invention, the reserved line number determining means 12 logically allocates wireless channels to general calls and priority calls autonomously and dynamically according to the number of mobile terminals accommodated therein. The communication request of the mobile terminal 2 for priority call can be preferentially accepted.

Further, the reserved line number determining means 12 autonomously and dynamically logically allocates wireless channels for general calls and priority calls according to the number of priority call mobile terminals accommodated, and the channels are assigned. The allocating means 13 is characterized by allocating channels according to the number of reserved lines for general calls and priority calls notified from the reserved line number determining means.

According to the configuration of the present invention, the reserved line number determining means 12 logically autonomously and dynamically sets the wireless channel for general calls and priority calls according to the number of priority call mobile terminals accommodated. Since the allocation is performed, the communication request of the priority call mobile terminal 2 can be preferentially accepted.

The reserved circuit number determining means 12 autonomously and dynamically allocates wireless channels logically for general calls and priority calls according to the traffic of the mobile terminal 2 to be accommodated, and assigns the channels. The means 13 is characterized by allocating channels according to the number of reserved lines for general calls and priority calls notified from the reserved line number determining means 12.

According to the configuration of the present invention, the reserved line number determining means 12 logically autonomously and dynamically sets the radio channel for the general call and the priority call according to the traffic of the mobile terminal 2 accommodated. Since the allocation is performed, the communication request of the priority call mobile terminal 2 can be preferentially accepted.

The reserved line number determining means 12 autonomously and dynamically logically allocates a radio channel to an outgoing call and an incoming call according to the traffic of the mobile terminal 2 to be accommodated, and assigns the channel. The means 13 is characterized by allocating channels in accordance with the numbers of reserved lines for outgoing calls and incoming calls notified from the reserved line number determining means 12.

According to the configuration of the present invention, the reserved line number determining means 12 logically autonomously and dynamically sets the radio channel for the outgoing call and the incoming call according to the traffic of the accommodated mobile terminal 2. Since the allocation is performed, it is possible to accept the communication request of the other (incoming or outgoing) without being affected by the traffic of one communication (outgoing or incoming) with respect to the communication request of the mobile terminal 2.

The reserved line number determining means 12 logically allocates wireless channels for outgoing calls and incoming calls, and also allocates wireless channels for general calls and priority calls by the determination processing. The channel allocation means 1
Reference numeral 3 is a call origination line according to the communication request of the mobile terminal according to the number of reserved lines for outgoing calls and incoming calls and the number of reserved lines for general calls and priority calls notified from the reserved line number deciding means 12 or The feature is that channels are assigned for each incoming channel.

According to the structure of the present invention, the mobile terminal 2 is divided into a terminal class (general call / priority call) and / or a communication type (call origination / termination), and the call origination is performed according to the communication request of the priority call mobile terminal 2. Alternatively, channels can be preferentially assigned for each incoming channel.

Further, the reserved line number determining means 12 logically allocates the radio channels to the outgoing call and the incoming call by the determining process, and then further allocates the outgoing call channel and the incoming call channel, respectively. It is characterized in that it is allocated for general calls and priority calls.

According to the configuration of the present invention, the channels separated for outgoing calls and incoming calls can be used for general calls and priority calls, respectively, so that communication (calling / calling) of important subscribers can be performed. ) Can be performed in preference to general subscribers.

FIG. 2 is a block diagram showing the principle of the second invention. 1 are denoted by the same reference numerals. FIG. 2 constitutes a system in which the mobile terminal 2 and the radio base station 10 are connected by a radio signal. In the radio base station 10, 11 is a call control means for exchanging call information with the mobile terminal 2, and 12 is a general call / priority call based on information input via the call control means 11. And / or the reserved line number determining means for calculating the respective reserved line numbers for outgoing call / incoming call, 13 is the reserved line number determining means 12
In response to the reservation line number information from the call control unit and the channel request from the call control unit 11, the channel allocation unit notifies the call control unit of the channel allocation, and controls the reservation line and measures the traffic. 20
It is a communication processing means for exchanging signals to and from. A signal enters the communication processing means 14 from the call control means 11 and the channel allocation means 13, and the communication processing means 14
From this, a signal is input to the reserved line number determining means 12.

With such a configuration, it is possible to manually change the allocation of radio channels for general calls and priority calls according to an instruction from the external monitoring device 20, and according to the situation of the number of outgoing calls. It is possible to dynamically secure communication (call origination / termination) of important subscribers by giving priority to general subscribers. In this case, the reserved line number determining means 12 operates parameter input from the external monitoring device 20. According to the above, the wireless channels are logically allocated to the general call and the priority call and / or the outgoing call and the priority call, and the channel allocation means 13 is notified by the reserved line number determination means 12 to the general call. It is characterized in that channels are assigned according to the number of reserved circuits for reserved calls and priority calls and / or the number of reserved circuits for outgoing calls and incoming calls.

According to the structure of the present invention, the channel allocating means 13 allocates the channels of the priority call and the general call or the channel of the incoming call of the outgoing call by the method instructed by the external monitoring device 20. . As a result, the number of reserved lines can be dynamically determined from the outside, and congestion of mobile terminals can be avoided.

[0026]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 3 is a block diagram showing an embodiment of the present invention. 1 and 2 are denoted by the same reference numerals. The system shown in the figure is a PHS (Personal H
The case where the present invention is applied to an andyphone System) is shown. In the figure, 1 is an exchange, 2 is a mobile terminal (PS), and 10 is a radio base station (CS). In the figure, 11 is a call control unit as a call control means for exchanging call information with the mobile terminal 2, and when the location information registration process requested by the mobile terminal 2 is completed, Along with the terminal class (general / priority), the call information measuring unit 15 is notified of that fact, and even when the deletion processing of the registered location information is completed, the fact is called together with the terminal class (general / priority) of the corresponding mobile terminal 2. The information measuring unit 15 is notified.

Reference numeral 15 adds or subtracts the number of accommodated mobile terminals for each terminal class based on the call information notified from the call control unit 11, and notifies the result to a reserved line number determination unit 12 as a reserved line number determination means. In addition, the external monitoring device 20
It is a call information measuring unit that also notifies 13 is a call control unit 11
When a channel allocation request is received from, the number of requests (traffic) is counted for each terminal class and transmission type,
This is a channel allocation unit that notifies the reserved line number determination unit 12 of the result at a fixed time cycle and also notifies the external monitoring device 20 of the result. A communication processing unit 14 notifies the external monitoring device 20 of the outputs of the call information measuring unit 15 and the channel allocating unit 13 and notifies the reserved line number determining unit 12 of an instruction input from the external monitoring device 20.

In the external monitoring device 20, 21 is a keyboard for inputting various commands, and 22 is a CRT for displaying information output from the radio base station 10. By looking at the display of this CRT 22, the network administrator
The connection state of the mobile terminal can be recognized. The operation of the system configured as described above will be described below.

When the position information registration process requested by the mobile terminal 2 is completed, the call control unit 11 notifies the call information measuring unit 15 of the fact together with the terminal class (general / priority) of the mobile terminal 2. Also, when the location registration information deletion process is completed, the call information measuring unit 15 is notified of the same with the terminal class (general / priority) of the corresponding mobile terminal 2.

The call information measuring unit 15 updates the number of accommodated mobile terminals by 1 when the call control unit 11 notifies the location information registration completion, and when the call control unit 11 notifies the location registration information deletion. The number of terminals is subtracted by 1, and the number of accommodated mobile terminals is always known. The call information measurement unit 15 notifies the reserved line number determination unit 12 of the addition / subtraction result and also notifies the external monitoring device 20 via the communication processing unit 14. The external monitoring device 20 displays the notified number of accommodated mobile terminals on the CRT2.
Display on 2. This allows the network administrator to know the current number of mobile terminals accommodated.

The channel allocator 13 includes a call controller 11
When a channel allocation request is received from the terminal, the number of requests (traffic) is counted for each terminal class (general / priority) and communication type (outgoing call / incoming call), and the reserved circuit number determination unit 12 receives the request frequency at a fixed time cycle. Notify the result. In addition, the counting result is notified to the external monitoring device 20 via the communication processing unit 14. The external monitoring device 20 displays the received traffic status as C
Display on RT22. As a result, the network administrator can grasp the traffic situation.

Next, the operation of the reserved line number determination unit 12 will be described. (1) Example of determining the number of reserved lines for general calls and priority calls (a) Channel allocation according to the number of accommodated mobile terminals The reserved line number determination unit 12 gives priority to the number of mobile terminals for priority calls according to the following formula. Calculate the number of reserved lines and general reserved lines.

Number of priority call reservation lines = number of mobile terminals for priority call × virtual line concentration ratio (0.1) (1) Here, the virtual line concentration ratio corresponds to the line concentration ratio of the line concentrator in the exchange. The virtual concentrating ratio = 0.1 means that 10 lines are combined into one.

Number of general call reservation lines = 0 (2) However, the number of priority call reservation lines must satisfy the following conditions.

[0035]

[Equation 1]

In this embodiment, the number of reserved lines is determined by multiplying the number of mobile terminals accommodated by the virtual line concentration ratio (10% as an example) in order to match the line concentration ratio of subscriber lines in the fixed network. In this case, the number of accommodated mobile terminals constantly fluctuates,
Since the total number of channels may be exceeded in some cases, the upper limit value (50%) is set for the number of reserved lines. Further, in order to maintain the superiority of the priority call to the general call, the number of reserved general call lines is set to 0. This means that a general call uses a channel (line) that is not used by the priority call. In this way, the channel allocation determined by the reserved line number determining unit 12 is notified to the channel allocating unit 13, and the channel allocating unit 13 allocates the channel to the call control unit 11 and the general number within the allocated number. The number of reserved lines is controlled so that the call mobile terminal 2 and the priority call mobile terminal 2 operate.

According to this embodiment, by determining the number of priority call reservation lines, it becomes possible to maintain a constant line concentrating ratio between the priority call mobile terminal 2 and the radio base station 10, and preferentially join the fixed network. It is possible to secure communication (sending / receiving) under almost the same conditions as those of the person. That is, the reserved line number determination unit 12
Automatically and dynamically allocates wireless channels to general calls and priority calls according to the number of accommodated priority call mobile terminals, so that the communication request from the priority call mobile terminals 2 is preferentially accepted. be able to.

FIG. 4 is an explanatory diagram of logical allocation of radio communication channels. The total number of channels is K. K1 is the number of general call reservation lines, and K2 is the number of priority call reservation lines. In the figure, the general reserved call circuit number K1 is assigned,
In the above-described embodiment, K1 = 0 as in the expression (2). Of all the channels K, the number of lines not reserved in K1 and K2 (= K- (K1 + K2)) is the line that can be used by both the priority call mobile terminal 2 and the general call mobile terminal 2. Therefore, the general channel usable range B1 and the priority channel usable range B2 partially overlap as shown in the figure.

In the case of FIG. 4, the channel allocation unit 13 is
Up to the number of reserved lines for general calls and priority calls is specified within the range of K1 and K2. However, if the number of reserved lines K1 and K2 for general calls and priority calls is exceeded, the reservation is reserved. Assign a channel to a non-existent line to make a call. (B) Channel allocation based on the number of accommodated mobile terminals The reserved line number determination unit 12 uses the number of accommodated mobile terminals notified from the call information measurement unit 15 according to the number of mobile terminals for priority call according to the following formula, Calculate the number of priority reservation lines and general call reservation lines.

[0040]

[Equation 2]

Here, the number of PSs means the number of mobile terminals (the same applies hereinafter). General number of reserved call lines = 0 (5) However, the number of priority reserved lines must meet the following conditions.

[0042]

(Equation 3)

In this embodiment, the mobile terminal / radio base station concentrating ratio under the control of the corresponding radio base station is equalized regardless of general calls / priority calls, and the number of reserved lines is determined. In this way, the channel allocation determined by the reserved line number determining unit 12 is notified to the channel allocating unit 13, and the channel allocating unit 13 allocates the channel to the call control unit 11 and the general number within the allocated number. The number of reserved lines is controlled so that the call mobile terminal 2 and the priority call mobile terminal operate.

According to this embodiment, it is not possible to expect the same level of communication security as a priority subscriber in a fixed network, but it is possible to prevent a priority call from being blocked by a general call. That is, the reserved line number determination means 12 autonomously and dynamically allocates wireless channels to general calls and priority calls in accordance with the number of accommodated mobile terminals, so that communication of the priority call mobile terminal 2 is performed. Requests can be given priority. (C) Channel allocation based on traffic ratio When the channel allocation unit 13 receives a channel allocation request from the call control unit 11, the number of requests (traffic).
Is counted and notified to the reserved circuit number determination unit 12. The reservation line number determining unit 12 determines the number of priority call reservation lines and the number of general call reservation lines according to the following formulas based on the number of general channel requests and the number of priority channel requests.

[0045]

[Equation 4]

General call reservation line number = 0 (8) However, the priority call reservation line number must satisfy the following conditions.

[0047]

(Equation 5)

In this embodiment, the number of reserved lines is determined so that the communication request of the mobile terminal 2 under the control of the corresponding radio base station can be received to the maximum extent. In this way, the channel allocation determined by the reserved circuit number determination unit 12 is notified to the channel allocation unit 13, and the channel allocation unit 13 allocates the channel to the call control unit 11.
The number of reserved lines is controlled so that the general call mobile terminal 2 and the priority call mobile terminal operate within the assigned number.

According to this embodiment, it is possible to realize the minimum communication guarantee of the outgoing call and the incoming call while minimizing the communication opportunity loss of each mobile terminal 2. That is, the reserved line number determination means 12 autonomously and dynamically allocates wireless channels to general calls and priority calls according to the traffic of the accommodated mobile terminals 2, and thus the priority call mobile terminals 2
Can be preferentially accepted. (2) Example of Reserving Line Decision for Outgoing Call and Incoming Call In the above-described example, channel allocation for general calls and priority calls has been described, but it is also possible to allocate channels by focusing on outgoing calls and incoming calls. . (A) Channel allocation based on traffic ratio When the channel allocation unit 13 receives a channel allocation request from the call control unit 11, the number of requests (traffic).
Is counted and notified to the reserved circuit number determination unit 12. The reserved line number determining unit 12 determines the number of outgoing call reservation lines and the number of incoming call reservation lines by the following formula based on the number of outgoing channel requests and the number of incoming channel requests.

[0050]

(Equation 6)

However, the number of outgoing call reservation lines and the number of incoming call reservation lines must satisfy the following conditions.

[0052]

(Equation 7)

As can be seen from the equations (12) and (13),
Here, it is considered that the number of outgoing call reservation lines is larger than the number of incoming call reservation lines. In this way, the channel allocation determined by the reserved circuit number determination unit 12 is notified to the channel allocation unit 13, and the channel allocation unit 13 allocates the channel to the call control unit 11 and transmits within the allocated number. The number of reserved lines is controlled so that the mobile terminal 2 for call and the mobile terminal for incoming call can operate.

In this embodiment, it is possible to minimize the communication opportunity loss of each mobile terminal 2 and to ensure the minimum communication of outgoing and incoming calls. That is, the reserved circuit number determining means 12 autonomously and dynamically allocates wireless channels to outgoing calls and incoming calls logically autonomously and dynamically according to the traffic of the accommodated mobile terminals 2. On the other hand, the communication request of the other (incoming or outgoing) can be accepted without being affected by the traffic of one communication (outgoing or incoming).

FIG. 5 is an explanatory diagram of logical allocation of radio channels. The total number of channels is K. K1 is the number of outgoing call reservation lines and K2 is the number of incoming call reservation lines. In the figure, of all the channels K, the number of lines not reserved in K1 and K2 (= K- (K1 + K2)) is a line that can be used by both the outgoing call mobile terminal and the incoming call mobile terminal 2. is there. Therefore, the outgoing channel usable range B1 and the incoming channel usable range B2 partially overlap as shown in the figure.

In the case of FIG. 5, the channel allocation unit 13 is
The numbers of reserved lines K1 and K2 are assigned to the outgoing call and the incoming call, respectively, but when the outgoing call and the incoming call exceed K1 and K2, respectively, channels are assigned to the non-reserved lines. (3) Example of deciding the number of reserved lines for outgoing calls / incoming calls in consideration of priority calls (a) Example of guaranteeing outgoing calls / incoming calls only for priority calls The channel allocation unit 13 requests the channel allocation from the call control unit 11. Number of requests (traffic) when receiving
Is counted and notified to the reserved circuit number determination unit 12. The reservation line number determination unit 12 determines the number of outgoing call reservation lines, the number of preferential outgoing call reservation lines, the number of incoming call reservation lines, and the number of preferential incoming calls based on the number of outgoing channel requests and the number of incoming channel requests. Determine the number of reserved lines.

Outgoing Call Reserve Line Number = Priority Outgoing Call Reserve Line Number (14) This equation indicates that all outgoing calls are allocated for priority outgoing calls.

[0058]

(Equation 8)

Number of incoming call reservation lines = number of priority incoming call reservation lines (16) This expression indicates that all incoming calls are allocated for priority incoming calls.

[0060]

[Equation 9]

However, the number of priority outgoing call reservation lines and the number of priority incoming call reservation lines must satisfy the following conditions.

[0062]

(Equation 10)

In this way, the channel allocation determined by the reserved circuit number determining unit 12 is notified to the channel allocating unit 13, and the channel allocating unit 13 allocates the channel to the call control unit 11 and the number of allocations. The number of reserved lines is controlled so that the mobile terminal 2 for outgoing call and the mobile terminal for incoming call can operate within. In this embodiment, the number of reserved lines is determined so that the communication request of the mobile terminal 2 under the control of the corresponding radio base station can be received to the maximum extent.
According to this embodiment, it is possible to realize the minimum communication of priority calls and incoming calls while minimizing the loss of general call communication opportunities. (B) Example in which general call / priority call and outgoing call / incoming call channel allocation are used together According to the present invention, control is possible in which general call / priority call and / or outgoing call / incoming call channel allocation is used together. Become.
In this case, the reservation line number determination unit 12 obtains the number of outgoing call reservation lines and the number of incoming call reservation lines by the following formula.

[0064]

[Equation 11]

However, the number of outgoing call reservation lines and the number of incoming call reservation lines must satisfy the following conditions.

[0066]

(Equation 12)

Next, the reserved line number determining unit 12 obtains the number of preferential outgoing call reserved lines and the number of preferential incoming call reserved lines by the following equations.

[0068]

(Equation 13)

However, the number of priority outgoing call reservation lines and the number of priority incoming call reservation lines must satisfy the following conditions.

[0070]

[Equation 14]

In this way, the channel allocation determined by the reserved circuit number determining unit 12 is notified to the channel allocating unit 13, and the channel allocating unit 13 allocates the channel to the call control unit 11 and determines the allocation number. The number of reserved lines is controlled so that the mobile terminal 2 for outgoing call and the mobile terminal for incoming call can operate within. According to this embodiment, the mobile terminal 2 is divided into a terminal class (general call / priority call) and / or a communication type (outgoing / incoming), and according to the communication request of the priority call mobile terminal 2, it is divided into outgoing and incoming channels. Channels can be preferentially assigned.

In this case, the reserved line number determination unit 12
After logically allocating the wireless channels for the outgoing call and the incoming call by the determination process, the channels for the outgoing call and the incoming call can be further allocated for the general call and the priority call, respectively. . This allows separate channels for outgoing calls and incoming calls to be used for general calls and priority calls, respectively, so that communication (outgoing / incoming) of important subscribers is given priority over general subscribers. Can be done.

FIG. 6 is another explanatory diagram of logical allocation of radio communication channels. This example shows an example in which a call channel is used in combination with channel assignment of both general call / priority call and outgoing call / received call. For example, the total number of channels K
Is the number of outgoing call reservation lines K1 and the number of incoming call reservation lines K2
, And divided into other lines. Number of outgoing call reservation lines K1
The number of priority outgoing call reservation lines k that gives priority to outgoing calls
1 is provided. In addition, within the number K2 of incoming call reservation lines, the number k2 of preferential incoming call reservation lines that prioritize incoming calls
Is provided.

On the other hand, the total number of channels K is the priority transmission channel usable range B1 and the priority reception channel usable range B2.
It is divided into Usable range of these channels B1,
A general outgoing channel use range B3 and a general incoming channel use range B4 are provided overlapping with B2.

In the above-mentioned embodiment, the case where the channel is autonomously assigned in the radio base station 10 is taken as an example. However, the present invention is not limited to this, and the channel can be assigned from the external monitoring device 20. For example, when the network administrator inputs an operation parameter (reserved line number) from the keyboard 21, this instruction is notified to the reserved line number determination unit 12 via the communication processing unit 14. The reserved line number determination unit 12 includes an external monitoring device 20.
The operation parameters notified by the above are directly notified to the channel allocation unit 13. The channel allocation unit 13 is
Channels are assigned according to the notified conditions.

Further, the method of determining the reserved line can be designated as the operation parameter from the external monitoring device 20.
In this case, the reserved circuit number determination unit 12 allocates channels using the designated reserved circuit determination method. The reserved line number determination unit 12 notifies the assigned channel to the channel assignment unit 13, and the channel assignment unit 13 controls the call control unit 11 with the assigned channel and monitors the channel.

According to this embodiment, the channel allocating means 13 uses the method instructed by the external monitoring device 20,
By allocating channels for priority calls and general calls, or by allocating channels for outgoing calls and incoming calls,
The number of reserved lines can be dynamically determined from the outside, and congestion of mobile terminals can be avoided.

FIG. 7 is a sequence diagram showing an example of the operation when changing the operation parameter from the external monitoring device. The radio base station 10 constantly measures information.
Here, the information to be measured includes the number of terminals accommodated,
There is traffic. The number of accommodated terminals includes the number of general mobile terminals and the number of priority mobile terminals. The traffic includes the number of outgoing channel requests of general mobile terminals and the number of incoming channel requests, and the number of outgoing channel requests of priority mobile terminals and the number of incoming channel requests of priority mobile terminals.

The radio base station 10 notifies the external monitoring device 20 of the information thus measured. External monitoring device 2
At 0, a notification response is returned to the wireless base station 10. Then CR
The received information is displayed at T22 (S2). The network administrator can grasp the state of the network by referring to the information displayed on the CRT 22. Looking at this display, when the network administrator issues an operation change instruction (S3), the external monitoring device 20 issues an operation parameter change instruction to the wireless base station 10.

Here, the operation parameters are roughly classified into those relating to the dynamic channel allocation (separation) method,
There are some related to the number of reserved lines. Dynamic channel allocation methods include a method of using the number of accommodated terminals, a method of using traffic, and a method of directly instructing from an external monitoring device. The number of reservation lines includes the number of general call reservation lines, the number of priority call reservation lines, the number of outgoing call reservation lines, the number of incoming call reservation lines, the number of priority outgoing call reservation lines, and the number of priority incoming call reservation lines. is there.

The radio base station 10 which has received the operation parameter change instruction changes the operation parameter (S
4) The operation parameter change completion notification is sent to the external monitoring device 20.

FIG. 8 is a sequence diagram showing an example of the operation state referring operation. From the external monitoring device 20 to the wireless base station 10
(S1). Here, the operating state includes a dynamic channel separation (allocation) method, the number of reserved lines, and the total number of channels. The dynamic channel separation method includes use of the number of accommodated terminals, use of traffic, and direct instruction. The number of reservation lines includes the number of general call reservation lines, the number of priority call reservation lines, the number of outgoing call reservation lines, the number of incoming call reservation lines, the number of priority outgoing call reservation lines, and the number of priority incoming call reservation lines. is there.

The radio base station 10 which has received the operation state request
The operating state is collected (S2), and the external monitoring device 20 is notified of the collected operating state. The external monitoring device 20 displays the notified state on the CRT 22 (S2). This allows
The network administrator can grasp the operation status and can optimally change the channel allocation.

In the above embodiment, the PH is used as the mobile terminal.
Although the case where S is used is taken as an example, the present invention is not limited to this. It can be similarly applied to a system using other mobile terminals such as a car phone.

Next, the radio channel allocation operation will be described. First, the channel acquisition rule is as follows. If the general call channel is available when the priority call cannot seize the priority call channel, the priority call can seize the channel. A general call cannot seize the priority call channel at any time. If the acquisition is successful, the number in use corresponding to the acquired allocation channel type is incremented by +1. Whether or not acquisition is possible is determined by whether or not the number in use for each channel type exceeds each upper limit (reserved line number).

Next, the channel release rules are as follows. The number in use is subtracted by -1 according to the assigned channel type determined at the time of acquisition. Channel types include (requested channel type) and (assigned channel type). The contents of each channel type are as follows.

(Request channel type) Priority outgoing channel Priority incoming channel General outgoing channel General incoming channel (Allocated channel type) Priority outgoing channel Priority incoming channel Priority pool channel General outgoing channel General incoming channel General pool channel FIG. FIG. All channels are roughly classified into priority call channels and general call channels.
The priority call channel includes a priority call channel, a priority pool channel, and a priority call channel. The general call channel includes a general outgoing channel, a general pool channel, and a general incoming channel.

The relationship between the operating parameters (the number of reserved lines) and the assigned channel types shown in FIG. 4 is as follows. Number of general call reservation lines = 0 Number of priority call reservation lines = ++ Number of outgoing call reservation lines = + Number of incoming call reservation lines = + Number of priority outgoing call reservation lines = Number of priority incoming call reservation lines = Figure 10 shows an example of channel capture operation It is a flowchart showing. First, when * receives a capture request, it determines the requested channel type (S1). At this time, the parameters given in the capture request are the terminal class (priority / general) and the communication type (outgoing / incoming). If the result of determination is that priority transmission has been made, the channel allocation unit 13 captures priority transmission channels (S2). When the acquisition is successful, the acquisition OK is returned to the call control unit 11. If acquisition fails, priority pool channel acquisition is performed next (S3). When the priority pool channel acquisition is successful, the acquisition OK is returned to the call control unit 11. When the acquisition fails, the general transmission channel is acquired (S4). When the acquisition is successful, the acquisition OK is returned to the call control unit 11. When acquisition fails, general pool channel acquisition is performed next (S
5). When the acquisition is successful, the acquisition OK is returned to the call control unit 11
Return to. When the acquisition fails, the acquisition NG is returned to the call control unit 11.

When the channel type determined in step S1 is general transmission, the channel allocation unit 13 performs the general transmission channel capturing operation (S4) and subsequent operations. When the channel type determined in step S1 is priority incoming call, the channel assignment unit 13 captures priority incoming channel (S6). Then, when the acquisition is successful, the acquisition OK is returned to the call control unit 11. When the acquisition fails, the priority pool channel is acquired next (S7). When the acquisition is successful, the acquisition OK is returned to the call control unit 11. When the acquisition fails, the general incoming channel is then acquired (S8). And when it is successfully captured,
The capture OK is returned to the call control unit 11. When acquisition fails, the general pool channel is acquired in step S5.

Note that, for example, in the case of XXX channel acquisition, the number of XX channels in use <ΔΔΔ reserved lines → acquisition success ××× number of channels in use ≧ ΔΔΔ reserved lines → acquisition failure. If the acquisition is successful, +1 is added to the number of XXX channels in use. FIG. 11 is a diagram showing the relationship between the number of channels in use and the number of reserved lines. XXX shows the number of reserved lines for making the above determination corresponding to the number of busy channels.

[0091]

As described above in detail, according to the first aspect of the invention, in a system in which a mobile terminal and a radio base station are connected by a radio signal, between the mobile terminal and the mobile terminal. On the basis of call control means for exchanging call information, and information input via the call control means,
Reserved line number determining means for calculating the number of reserved lines for general calls / priority calls and / or for outgoing calls / incoming calls,
In response to the reserved circuit number information from the reserved circuit number determining means and the channel request from the call control means, the channel allocation is notified to the call control means, and the reserved circuit is controlled and the traffic is measured. By including the above, when congestion occurs in the mobile terminal, communication (calling / calling) of important subscribers can be secured with priority over general subscribers.

In this case, the reserved line number determining means autonomously and dynamically logically allocates wireless channels for general calls and priority calls in accordance with the number of accommodated mobile terminals. The communication request of the terminal can be preferentially accepted.

Further, the reserved line number determining means autonomously and dynamically allocates wireless channels to general calls and priority calls in accordance with the number of priority call mobile terminals accommodated. The communication request of the terminal can be preferentially accepted.

Further, since the reserved line number determining means autonomously and dynamically allocates wireless channels to general calls and priority calls according to the traffic of the accommodated mobile terminals, the priority call mobile terminals. Can be preferentially accepted.

Further, the reserved circuit number determining means autonomously and dynamically allocates wireless channels for outgoing call and incoming call logically in accordance with the traffic of the accommodated mobile terminal. On the other hand, the communication request of the other (incoming or outgoing) can be accepted without being affected by the traffic of one communication (outgoing or incoming).

Further, the mobile terminal is divided into a terminal class (general call / priority call) and / or a communication type (outgoing / incoming call), and a channel is preferentially assigned for each outgoing or incoming channel according to the communication request of the mobile terminal for priority call. Can be assigned.

Further, since the channels divided for the outgoing call and the incoming call can be used for the general call and the priority call, respectively, the communication (outgoing / incoming) of the important subscribers to the general subscribers can be performed. Can be given priority.

According to the second invention, in a system in which a mobile terminal and a radio base station are connected by a radio signal, call control means for exchanging call information with the mobile terminal is provided in the radio base station. A reserved line number determining means for calculating the number of reserved lines for general call / priority call and / or outgoing call / received call based on the information inputted through the call control means, In response to the reserved circuit number information from the reserved circuit number determining means and the channel request from the call control means, the channel allocation is notified to the call control means, and the reserved circuit is controlled and the traffic is measured. By including communication processing means for exchanging signals with the external monitoring device,
The allocation of wireless channels for general calls and priority calls can be manually changed by an instruction from an external monitoring device, and communication of important subscribers (outgoing / incoming calls) can be performed dynamically according to the number of outgoing calls. ) In this case, the reservation can be given priority over the general subscriber, and in this case, the channel allocating means performs channel allocation for the priority call and the general call by the method instructed by the external monitoring device, or for the outgoing call and the incoming call. By allocating channels, the number of reserved lines can be dynamically determined from the outside and congestion of mobile terminals can be avoided.

[Brief description of drawings]

FIG. 1 is a principle block diagram of the first invention.

FIG. 2 is a principle block diagram of the second invention.

FIG. 3 is a block diagram showing a form example of an embodiment of the present invention.

FIG. 4 is an explanatory diagram of logical allocation of radio communication channels.

FIG. 5 is another explanatory diagram of logical allocation of radio communication channels.

FIG. 6 is another explanatory diagram of logical allocation of radio communication channels.

FIG. 7 is a sequence diagram showing an example of an operation when an operation parameter is changed from an external monitoring device.

FIG. 8 is a sequence diagram showing an example of an operation state referring operation.

FIG. 9 is an explanatory diagram of assigned channel types.

FIG. 10 is a flowchart showing an example of a channel acquisition operation.

FIG. 11 is a diagram showing the relationship between the number of busy channels and the number of reserved lines.

FIG. 12 is a conceptual diagram of a conventional system.

[Explanation of symbols]

 1 Switch 2 Mobile Terminal 10 Radio Base Station 11 Call Control Means 12 Reserved Circuit Number Determining Means 13 Channel Allocation Means

Claims (9)

[Claims] 1. In a system in which a mobile terminal and a radio base station are connected by a radio signal, call control means for exchanging call information with the mobile terminal in the radio base station, and the call control means are provided. From the reserved line number determining means for calculating the number of reserved lines for general call / priority call and / or outgoing call / incoming call based on the information input via Receiving reservation channel number information and a channel request from the call control means, notifying the call control means of channel allocation, and further comprising channel allocation means for controlling reserved circuits and measuring traffic. Mobile terminal priority connection system. 2. The reserved line number determination means logically allocates wireless channels to general calls and priority calls autonomously and dynamically according to the number of mobile terminals accommodated therein, and the channel allocation means comprises: 2. The priority connection system for mobile terminals according to claim 1, wherein channels are allocated according to the number of reserved lines for general calls and priority calls notified from the reserved line number determining means. 3. The reserved line number determining means autonomously and dynamically logically allocates wireless channels for general calls and priority calls according to the number of priority call mobile terminals accommodated, and the channel allocation 2. The priority connection system for mobile terminals according to claim 1, wherein said means allocates channels according to the number of reserved lines for general calls and priority calls notified from said reserved line number determining means. 4. The reserved line number determining means logically allocates wireless channels to general calls and priority calls autonomously and dynamically according to the traffic of a mobile terminal accommodated therein, and the channel allocating means 2. The priority connection system for mobile terminals according to claim 1, wherein channels are assigned according to the number of reserved lines for general calls and priority calls notified from the reserved line number determining means. 5. The reserved line number determining means autonomously and dynamically logically allocates a radio channel to an outgoing call and an incoming call according to the traffic of a mobile terminal to be accommodated, and the channel allocating means comprises: 2. The prioritized connection system for mobile terminals according to claim 1, wherein channels are assigned according to the numbers of reserved lines for outgoing calls and for incoming calls notified by the reserved line number determining means. 6. The reserved line number determining means logically allocates a wireless channel for an outgoing call and an incoming call, and also allocates a wireless channel for a general call and a priority call by the determination processing. The channel allocating means transmits in accordance with the communication request of the mobile terminal according to the number of reserved lines for outgoing calls and incoming calls and the number of reserved lines for general calls and priority calls notified from the reserved line number determining means. Alternatively, the priority connection system for mobile terminals according to any one of claims 2 and 5, claim 3 and 5, or claim 4 and 5, wherein channels are assigned for each incoming channel. 7. The reserved line number determining means logically allocates a wireless channel for an outgoing call and an incoming call by the determination processing, and then further generalizes each of the outgoing call channel and the incoming call channel. Claims 2 and 5 or claim 3 and 5 or claim 4 are allocated for calls and priority calls.
6. The priority connection system for mobile terminals according to any one of 5 and 5. 8. In a system in which a mobile terminal and a radio base station are connected by a radio signal, call control means for exchanging call information with the mobile terminal in the radio base station, and the call control means are provided. From the reserved line number determining means for calculating the number of reserved lines for general call / priority call and / or outgoing call / incoming call based on the information input via Between the reservation line number information and the channel request from the call control means, the channel allocation is notified to the call control means, and the reserved line is controlled and the traffic is measured. And a communication processing unit for exchanging signals in the mobile terminal. 9. The reserved line number determining means logically assigns a wireless channel to a general call and a priority call and / or to an outgoing call and a priority call according to an operation parameter input from an external monitoring device. Allocation, the channel allocating means notifies the number of reserved lines for general calls and priority calls notified by the reserved line number determination means, and / or
9. The mobile terminal priority connection system according to claim 8, wherein channels are assigned according to the number of reserved lines for outgoing calls and incoming calls.